Radiation detector, radiographic imaging device, radiographic imaging system and line capacitance adjusting method

1. A radiation detector comprising: a plurality of radiation detection pixels that are configured to detect a state of irradiation of radiation; a plurality of image detection pixels that are configured to detect a radiographic image expressing the radiation that has passed through an imaging subject; a plurality of signal lines, each of a first set of the plurality of signal lines is connected to some of the plurality of image detection pixels and each of a second set of the plurality of signal lines is connected to some of the plurality of image detection pixels and at least one of the radiation detection pixels; and at least one adjusting element, each connected to one of the plurality of signal lines, that is configured to adjust capacitance to reduce the line capacitance difference between at least two of the plurality of signal lines.

2. The radiation detector of claim 1 wherein, said line capacitance difference is equal to or greater than a predetermined value, wherein the line capacitance difference is a difference between a maximum line capacitance of the plurality of signal lines and a capacitance of said one of the plurality of signal lines.

3. The radiation detector of claim 2 wherein the at least one adjusting element has a capacitance less than the line capacitance difference.

4. The radiation detector of claim 1 wherein each of the plurality of signal lines is connected to at least one of the at least one adjusting element.

5. The radiation detector of claim 1 wherein the at least one adjusting element is a capacitive element.

6. The radiation detector of claim 1 wherein the image detection pixels each comprises a sensor portion that is configured to accumulate charges that are generated due to irradiation of the radiation, and a switching element that is configured to read out the charges that have been accumulated in the sensor portion, and the radiation detection pixels each comprises the sensor portion, and the switching element having switch terminals short-circuited.

7. The radiation detector of claim 6 wherein the at least one adjusting element is configured similarly to the radiation detection pixels.

8. The radiation detector of claim 1 wherein the at least one adjusting element is connected in at least one position selected out of, one end portion side of the signal line outside a region where the at least one of the radiation detection pixels and/or the image detection pixels are connected, an end that is other than said one end portion side of the signal line and is outside the region; and inside a connection region of the signal line in which plural radiation detection pixels and/or plural image detection pixels are connected.

9. A radiographic imaging device comprising: the radiation detector of claim 1 ; and a determination section that is configured to determine the state of irradiation of radiation based on electric signals obtained from the second set of the plurality of signal lines.

10. The radiographic imaging device of claim 9 wherein the radiation irradiation state is at least one state out of start of irradiation of the radiation, irradiance level of the radiation, or end of the irradiation of the radiation.

11. A radiographic imaging system comprising: the radiographic imaging device of claim 9 ; and a radiation irradiation device that is configured to irradiate the radiation for imaging the radiographic image in the radiographic imaging device.

12. A radiographic imaging device comprising: a radiation detector comprising, a plurality of radiation detection pixels that are configured to detect a state of irradiation of radiation, a plurality of image detection pixels that are configured to detect a radiographic image expressing the radiation that has passed through an imaging subject, and a plurality of signal lines, each of a first set of the plurality of signal lines is connected to some of the plurality of image detection pixels and each of a second set of the plurality of signal lines is connected to some of the plurality of image detection pixels and at least one of the radiation detection pixels; a determination section that is configured to determine the state of irradiation of radiation based on electric signals obtained from the second set of the plurality of signal lines; and at least one adjusting element, each connected to one of the plurality of signal lines, that is configured to adjust capacitance to reduce the line capacitance difference between at least two of the plurality of signal lines.

13. The radiographic imaging device of claim 12 further comprising: a plurality of amplification circuits that are configured to amplify the electric signals flowing in the plurality of signal lines, wherein the at least one adjusting element is connected to the plurality of amplification circuits.

14. A line capacitance adjusting method for a radiation detector, wherein the radiation detector includes a plurality of radiation detection pixels, a plurality of image detection pixels, a plurality of signal lines where each of a first set of the plurality of signal lines is connected to some of the plurality of image detection pixels and each of a second set of the plurality of signal lines is connected to some of the plurality of image detection pixels and at least one of the radiation detection pixels and at least one adjusting element each connected to one of the plurality of signal lines, the line capacitance adjusting method comprising: detecting a state of irradiation of radiation with the plurality of radiation detection pixels; detecting a radiographic image expressing the radiation that has passed through an imaging subject with the plurality of image detection pixels; and adjusting capacitance to reduce the line capacitance difference between at least two of the plurality of signal lines with the at least one adjusting element.